Molding-machine.



T. W. HAMMOND, Jn.

MOLDING MACHINE. APPLIQATION FILED-AUG. 5, 1911.

lPatented Dec. 31, 1912.

GSHBBTS-SHBET 1.

3 wwe/Wto@ W. HAMMOND, JL MOLDING MACHINE.

APPLIGATIM rrLsD AUG.5,1911.

1,048,689. .Patented 1m31, 1912.

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wur 1mm m uw vmwm. n c

T. W. HAMMOND, Jn. MOLDING MACHINE.

A PPLIUATION PILED AUG. 5, 1911.

1,048,689. l Patented 1 e.31,`1912.Y

6 SHEETS-SHEET 3.

Mmvlurmu. im, mm1A nnnnnn um. u c

T. W. HAMMOND, Jn. 'MOLDING MAoHlN'E.

APPLICATION FILED AUG. 5,*1911.

1,048,689. Patented 1m31., 1912.

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.a 'la 3mm/Moz Imm hun. ce mn.. lqmuvuh c `T. W. HAMMOND; Jn.

MOLDING MACHINE. I APPLIOATION FILED AUG. 5., 1911.

Pai-,emma De@.31,'1912.

6 SHEETS-SHBET 5.-

T. W. HAMMOND, JR.

MOLDING MACHINE.

APPLIUATION FILED AUG 5,

Patented Dec.31, 1912.

e sums-311mm u'.

"'JlHOlltllAS W. HAMMOND, JB..

F TACOMA, WASHINGTON.

MoLpINo-MAGBINE;

Specication ol' Ietters Patent. Patented D'e. 31, 1912.

- Application tiled VAugust 5,1911. j Serial No. 642,476.

.' To all wk'oimz't may concer/z Be it known that I, THoMAsW. lHAM- MoND, .li-.,a citizen of the United States, 'residing at Tacoma, in the county of' Pierce and, State of iWashington, have invented certain new and useful Improvements 1n Molding-Machines; vand I do hereby declare` the following to be a full, clear," and exact description of the invention, suchY as .will

enable others skilled in the art towhijch it' appertains to make and `@use the same.'`

The invention relatesto machines for molding pipes and the. like from'l "cement, concrete or other plastic materials and has `for its. object to provide a machine of the character` indicated involving mechanism, preferably located to a large extent, be# low the. flo'or level, and comprising astationary platform upon which the operator stands, about which platform a rotary mold-carryingframe'is adapted to be in- .'termittently revolved, f with means for .raising and lowering the mold-carrying frame with respect to a rotary table driven by suitable mechanism, said table being pro videdwith an interchangeable central .section to .adapt the machine 'to molds of different sizes, the table also being provided with means'forlocking a mold thereto and causing the same to revolve therewith about a central core which is adapted to be withfdrawn by appropriate mechanism, at the prbperl time downward and out of the molded f ipe section, andto b e returned into, position through the table andl into the next-empty mold; an adjustable feed hopper adapted to be moved toward and from'the central axis of the changing table vto supply theinaterial for pipes of diil'erent diameters, associated with ymeans for positively feeding the material from the hopper into the mold; tamping mechanism involving one or 'more bars mounted for reciprocatory motion and lateral adjustment above the charging table, said bars being. operated by a simple form of driving mechanism adapted to hold-the tamping bars in frictional engagement and permit the same to automatically adjust themselves to the depth of the material in the mold;

1 and means for controlling the operation of the mold carrying frame, the mold core, the feed, of the material from the hopper and the operation of the tamping devices, all to be Amore particularly hereinafter described` and illustrated in a simple and con- `venient embodiment of the invention, in

: thereof; Fig. 3 is a -plan' view; Fig. 4 isa sectional plan on the line 4--4 of Fig. 2;

Fig 5 is a sectional elevation on thelline 5 5 of Fig. 4'; Fig. 6 is an enlarged side elevation of the u per. part of the machine showing the fee hopper and` tamping mechanism; Fi 7. 7- is a plan View, partly 1n section, of t chopper mechanism; Fig. 8 is a detail plan view, fpartl in section, of one of the tamping devices; ig. 9 is a side elevation thereof; Fig. 10 -is a detail side elevation partly inl'fsectionof one of the clamping slides for the tamping bars; Fig.

1l is a.perspective View of the mold carryl ing frame; Fig. 12 isa fra entary plan view of the middle ortionv of the removable' central section oft e charging table; Fig. 13 is a sectional plan view of the bottom of one of the mold forms..

Referring to the drawings, a indicates the base of the machine, which is preferably formed of a'metal casting, having secured thereto a series of vertical columns or sup'- porits a', which latter project through the mam floors represented by the beams -w, upon which latter are mounted side frames b which support the mold charging and tamping apparatus to be hereinafter more particularly described. t

Supported at the forward end ofthe base plate a is a stationary column or support c upon the upper end of which is secured a platform c upon which-the operator stands and from which he controls the complete operation of the machine. Journaled upon the column c is a hollow shaft e, upon the lower end lof which is mounted a pinion d by means of which the said hollow shaft e is driven from an electric motor or similar prime mover al mounted in brackets as' on the base platea through transmission mechanism comprising a gear d` on the motor shaft meshingwith a speedreducing'pinion cl2 upon a counter-shaft Zjouinaledin -bearings on the base plate and a-wormdorrsaid shaft which meshes with'a worm'-wlieel d mounted on the stub shaftd journaled-ina stepped bearing formed' in the plate 'and having thereon a pinion ci? meshing ,withf said pinion d". j

The hollow shaft e rotates idly on the colvumn cv until said shaft is elevated'a slight distance by means of .rock lever g mounted in brackets a5 on the b ase plate, which lever is adapted to be engaged by a pin flo on the core f8, after the latter has'been withdrawn' 5v downward from the mold, as will be hereinafter explained. ,The other end of said lever g is provided with a sliding collar g surrounding the shaft e, said collar having'a flange at its top to confine a stout helical springA g2 between it andthe corresponding lo collar on the shaft e, t-he parts beingso arranged that when the'lever g is depressed' the collar g compresses spring g2 and ele-4 vates 'the shaft e a short. distance, sufficient to cause a flange e on the upper portion thereof to engage a corresponding flange' on the base of a hollow sleeve e2 surrounding.

the column c and having rigidly secured to its upper end the mold carrying frame. The frictional engagementof the flanges on the hollowv shaft sections e and e2 causes the lattery section to be vraised and then rotated with the former, thereby swinging the mold carrying frame, with the molds, in a rotary path about the column c into' charging and discharging positions.

The mold carrying frame, which 'is se cured toand revolves with the hollow shaft section e2 consists of a middle yoke section e3 cal position, particularly as shown inI Figs.y

l and 5, and to permit said molds tofrotate independently. i e Mounted en the upper ends of the columns a is the charging table over which the moldcarrying frame is adapted lto swing the molds in succession. Said charging table comprises a ring-shaped base piece f secured to the column a aforesaid, provided on its upper rim with a raceway adapted to receive the antifriction rollers or balls 'f7 which support a rotary ring section f having its periphery lprovided with gear teeth 'f by means of which the said section is rotated. Centrallyy disposed within the ring section f and supported by an'annular flange thereon 1s a removable plate `or spider f5 which serves'as an upper guide for the mold core f8, asindicated more particularly in Fig. 5. Centrally disposed in the rim section fjis `a e removable table section f3 which is adapted to support the molds during the operation of casting and finishing the pipe sections..

The central portion of said plate f3 is elevated and provided with an orifice ,through whichwthe core f8. passes, the purpose of the elevation being to prevent theaccumulation of sand or othermatter which would tend to 65 prevent the accurate centeringv of the mold.

Said plate f3 is also provided with series of circumferentially spaced pins fi/ located about-the periphery of the central elevation as shown in Figs. 5 and 12, which coperate withl certain lugs onthe lower end of the molds to lock each mold to the table and cause it to partake of the rotary motion of said table.' The purpose of making the sectio-ns f3 andA removable is to adapt the machine for the molding of pipes of various diameters, to effect which purpose several sets of plates having central openings of differentsizes to accommodate 'the different sizes of the interchangeable cores f8 are employed. f The revoluble table top com- Vprising the rim f and central section f3 is driven by a gear h2 meshing with the teethj.4

` f6 on the rim section f', said gear beingv mounted upon the vertical shaft h which has splined thereto one member of a clutch ja, the other member of which is formed upon a bevel'pinion L, which meshes w-itha bevel gear l5 on the shaft cl3. Said clutch member j Vis controlled from the hand lever" j mounted on the upper frame b of the machine and accessible to the operator standing on the platform c', said hand lever being connected by a link j to rod 7'2 which is pivoted at one end to a bracket ai mounted on the base a and swiveled at its mid-section to the movable member of clutchy3. When the members of the clutch are engaged, the charging table is therefore driven to uniformly rotate the mold carried thereon about the core f8. Secured to the lower face of the stationary rim f of the charging table is a bracket piece f2 which serves as an upper bearing and guide for the hollow shaft `section e, as shown in Fig. 5.

.The core f8. which consistsof a cylindrical upper section and a lower screw-threaded section is mounted for reciprocatory motiony inayoke'a1 and an interiorly threaded bevel gear f1.1 at vitslower end and in the central openings of the plates f3 and f5 of the table at its upper end. The gear j which operates the core is supported between a hollow lug on the base plate, through'which the lower portion of the core passes, and yoke a* secured to .the base plate.l Said gear f is driven at appropriate times to raise and:`

lower the core by a mating bevel gear ft2; -*i

ournaled in suitable" secured lto a shaft f13 brackets on the base plate'. The core f8 ac'- curately lits the central openings in the table sections f3 and f5 and said core and-tablesections may be removed and replaced ,by other similar parts of appropriate sizefto,

adaptthel machine for molding pipe sections' of different. sizes and diameters. Y

Rotary motion is imparted to the-shaft fla and thence to gears fm, fn and core f8, by

means of a suitable friction driven reverse` l object there is mounted uponv the shaft cl3,

two friction clutches f1 and fzolrespectively, the movable inner members of which are'adjusted simultaneously to engage one clutch and disengage the other. Shaft f is connected with the free member of clutch f1 lby means of gears f14 and f1 while the free memberof clutch ym is connected with said shaft f1 by means of sprocket gearing f", f and f1. The clutches' f1 and f2 are operated to disengage one and en age the other by means of cams i* mounte` upon a shaft a to the outer end of which is secured abell crank 2 connected by means of a pull rod-z" with a hand lever mounted on the upper portion of thevmachine and readily accessible to the operatoren the platform c. When the members of clutch f2 are engaged, shaft fla is rotated in one direction to elevate the core fsvand adjust the same in its proper central longitudinal -alinement within the mold. When clutch f1 'is engaged, shaft f13 is driven in the opposite direction by gears f1* and )C15 to retract or with- 'draw the core from its position within the mold and at the same time to impart to said core a uniform downward movement which" has the effect of accuratel 'finishing and polishing the interiorl of t e pipe section. When the hand lever t' is moved to inter. mediate position both ofthe clutches ff and f2 are disengaged and no movement 1s parted to the core f8.

vThe means for charging the material into the mold comprises a hopper lc which is slidably and adjustably mounted' upon a rearwardly` projecting bracket b2 secured to thel side frames I), near -the upper part of the machine. The lower portion of the hopper isprovided with a discharge spout lc in which works a feed screw lc2 driven by a pinion k3 on the outer end thereof, meshing with a pinion k* on a countershaft c which 1 latter 1s splined for slidingv movement through the hub of a bevel pinion 7c which meshes with a driving pinion Z2 mounted upon a countershaft ',Z. This arrangement admits of the driving connection for operating the feed screw being maintained at all times and for all adjustments of the hopper toward and'from the central axis of the charging table, inasmuch as the shaft c5 partakes of the'sliding movement of the hopperv and at the same time slides through the hub of its driving pinion la to which it is splined. l

The cou'ntershaft Z is provided at its end with 'a stepped belt pulley'lconnected by belting m3 with a stepped pulley m2 mounted u on a main drive shaft m, which latter is driven by means of a pulley m fron' any suitable source of power and. which, of course, will be provided with suitable means `for coupling 'and uncoupling it wit-h respect to the power source.y

To provide for tamping or compacting the material as it is fed from the hopper into'the mold, the machine is fitted with a plurality of tamping bars of a novel construction and mode of operation. Fixed in,`

brackets. on the upper part of the side frames b are two parallel bars 0 and o upon 'which are slidably mounted two plates p, p,

each ofwhich is adapted to support and guide a tamping bar. The sliding connection between the plates p, p and the supportinglbars o, o admits of said plates 'and their respective tamping bars being adjusted l laterally with respect to the mold', so that the bars may be' properly Apositioned to tamp the material in molds of different diameters. Each of the tamping bars q2 consists of a substantially rectangular member which is fractionally held in a metal slide q which in turn is guided between flange plates p8 on the outer face of the late p, as shown in Figs. 6 'and 8. Each oi) vided with twoyoke-shaped end sections qv which embrace the tamping bar q2, and the latter is held in frictional engagement with its slide between two leatherlfriction pieces g3, j, one of which is secured to the face of the slide and the other upona metal wear plate 14 held in the yokepieces q by cross pins g1". The outer face of the metal strip gi, has secured thereto two blocks gnwhich serve as abutments for a semi-elliptical spring g which is disposed between the plate g4 and a cam g1 journaled in brackets lf attached to the slide, said cam being provided with a handle g3 for rotatingthe same. When said cam is rotated to force thc spring Q inward, the ends of said spring engage the abutment blocks g and force the plate g* with its leather facing against the tamping bar g2 -so that the latter is yieldingly held by frictional engagement between the two leather facings g3, gi'. When the cam QT is rotated to relieve theftension on the spring the tamping bar may be readily movedup and down in its slide,

In order to im c art a proper reoiprocatory said slides q is pro-Il movement to eae of the tamping bars and its associated slide, each of said slides is provided on its rear face with a pint-le q' which projects through a vertical slot in the face of supporting plate p and engages a slide bloclefi7 mounted in an openingfp Tof a crank .disk p' mounted on the end of a stub shaft n, said arm vp* being provided witlran elongated central slot in which op,

crates a slide block p3 in which is journaled `the crank pia p2 eccentrically disposed on the face of the disk p.y Two stub shafts v n' are provide.d,rone on each side 4'ofthe machine, for operating the two ,tamping def vices, said stub shafts being mounted in suit-v able journal bearings and brackets b on the yside frames b andeach of said stub shafts having splined thereto a `pinion n which* .admits of the. respective'stub shafts being slid' laterally together with the plates pand tamping bars Q2 to adjust the tamping' dezvices forfdierent sizes of molds.- v'lhe pinions n whichare secured to the stub shafts n, between the `.brackets and theA side frames mesh respectively Awith driving gears m, mtfast to 'shaft m. so that when fsaid shaft is driven, each of said stub shafts p nis rotated, thereby imparting an oscillaproper form tothe bell end of the pipe and the lower portion of the mold is provided with a collar s2 by means of which the mold is supportedl in vertical position in one of .fthe rings e5 of the mold carr ino' frame as e. Y e 7 throws clutch f illustrated in Fig. 5. Y Below this collar the mold shell is. provided with a horizontal flange s3 which terminates the lower portion/ of the shell and has thereon a series of radially projecting fingers s4 which are adapted to'eng'age the pins f4 disposed about the central opening inthe char ingtable, asindicated in Fig. 5, whereby t el mold-is caused toparticipate inl the -rotatory movement -of the table. The diameter of the fla-nge s3, including the fingers s4 is such as to admit of' the same being. passed through the -rings e5 ofthe mold carrying frame.

They operationof the machine, hereinbe fore described, is as'follows; Normally one of the -molds 'is located in charging position over the center of the charging table, while the other mold, in the mold' carrying frame has been moved into discharging position to the front of the machine.- as' indicated in l. .The operator by .means of handle i l'. into gear which causes shaft Iim" to be driven through'gears flt,

. y from main shaft d3, connected with the ielectric motor du" Rotation of shaft fla causes bevel pinion fm to rotate its mate f to withdraw the core fs. downward through the pipe section formed in the mold over the charging table, the movement of the core f8, serving to smooth and finish the interior surface of lt-he cast pipe section .and the longitudinal withdrawal of the core vin'a downward direction servingto further compact the plastic material forming the' pipe section. As'the core reaches vthe lower end of its downward movement' and is Withdrawn from the mold, pin flo on the core engages lever g, rocking the same to elevate causing the upper end of said hollow shaft to engage thelowerfend of hollow shaft section '62, by means of the engaging flanges' on the respective shaft sections, and-to 1m.-

part a rotary vmovement to said shaft section e2 through the frict-ional engagement of the flanges aforesaid;y @The upward movel ment of shaft e elevates shaft section e2 with its attached mold carrying frame and molds suliiciently to disengage. the flange s? on the mold occupying the table from the locking pins f4 on' the table and the subsequent,

rotary movement "of shaft section e2l swings the mold carrying frame'tolareverse position, carrying vthe mold with the pipe section therein, away from the table and bringing the empty lmold into position over the. table and in central alinement with the opening therein'. At this time, hand leverl i is operated'to disengage the members on clutch f1 and immediately engage membersl of clutch fw.' Assoon as the members of.

clutchJ f*o are engaged, shaft f is driven by sprocket gearing f1?, fis and j from shaft d3 and bevel gears fm and fn move the core f8 inthe opposite direction to lift' the same. The preliminarylifting movement of thecore has the effect of disengaging pin f1 from lever g thereby permitting shaft c to drop Jcarrying with it shaft section e2 and lowering the mold carrying -frame until the mold over the charging table engages with lugs s*t on the lower flange thereof, with the pins f4 on the table and locks the mold to the table. The downward movement ofthe shaft e vdisengages said shaft from'the upper shaft section e2 and the latter stands idle in the supporting bracketv f2. The continued driving of shaft f13 serves to lift the core f8 until the latter is brought into proper longitudinal alinementwithin t-he mold s located on the charging table. Hand lever i is then moved to` olf position, thereby disengaging the members of clutch f2 and suspending the rotation of' shaft fla. The apparatus is now ready for the ne-Xt molding operation to effect which hand lever .j is moved by the- 'operator to engage members ofclutch 7'3 which locks shaft h to bevel gearh which is constantlyl driven bj, bevel pinion d5 on shaft d3. The rotation of shaft 71, causes the movable portion of the charging table 'f and f3 to be revolved by means of the pinion h2 engaging the toothed flange f6 on' the table section f, thereby causing the mold s mounted on the table to rotate with the latter. At the same time the operator engagesbelt pulley m with a suitable prime,

mover, thereby causing said pulley to drive its connected shaft m. .The rotation of shaft m, drives countershaft Z by means of the stepped pulleys m2, l and belt ma, and said countershaft Z drives the feed screw k iii the hopperv chute k through lmeshingbevel gears'la'nd c,shaft7f: and meshing gears laakt." "The movementof the feed screw k24 causes "the material to be delivered' from lupperc along spout c- 'into the mold.

' Shouldiitjbe'1 found necessary to adjust the' position -ofQ-the' hopper to properly deliver the' material into the mold, as for example `when alarger or a smaller pipe secticnisbeing formed, the hopper 1s moved fom,..or towardthe central axis of4 the i charging tablefon its supporting bracket 712 fffPrl and,".nasmuch. as the shaft h5 is splined tothehubof ear cf, said shaft while slid#4 ingwith the opper `always maintains drlvigg connection with its pinion ce. thle'.tampingy devices are adjusted inv proper position Awith respect to the mold, that is to say, the bars g are adjusted to stand over the mold lon-opposite .sides of the core and between they latter' and the inner walls of the mold. To effect this' adjustment the lplates p carrying the tamping bars are slid along the'supporting bars o until each lof the t-amping bars is set to the desired adjustment. It will be evident that the tamping i bars may, therefore be adjusted to coperate Withymolds' of varying sizes, from the largest to thel smallest, within the capacity of the machine. t

fThe tamp'ingd operation is carried on simultaneously with thek charging of the lmaterial'into the mold. The tamping bars are lowered intol the mold by operating the *handlesl g? connected wit-h the cams Q7 which -release .springs g5 relieving the tension on .the leather friction grips g3, g3 carried by the respective slides of the bars, thereby permitting the bars' to drop. The handles gs are then swung'into their lower positions .causing the 'cams g" to' put the springs g5 l,under tension, thereby `binding the respec-l tive'clampingbars 1to the slides by the fricstrips'qi.A l l Thestub shafts fn., which serve to operate tional' engagement of ,the leather gripping the tam'ping bars, are slidably mounted in ibearings on the side frames b, as hereinbefore explained, and partake of the lateral movement of the rest of thetamping mechanisms,

including the plates p. Pinions n which are splined to the stub shafts/n. yare driven by gears m4, m, which are mounted on the shaft m,' so. that both of said stub shafts a` are rotated `whenever shaft m is driven.

lThe rotation of each of said shafts n, causesv the verticali oscillation oft-he pivoted arm -efon the: corresponding plate p through crank disk'p, crank vpin p2, and yslide p, andthis oscillatory movement of arm p4 causes a reciprocatory movement 'of the connectedtamping bar slide q as hereinbefore.' explained. The reciprocation of the tamp ing bgrs jefe'cts theproper and necessary r. to starting the charging operation,`

i compacting ofthe plastic material fed into .the mold to form the pipe section. is the' 4depth of the material fed into the mold increases the frictional engagement 'between the tamping bars and the leather facing plates carried by their slides, admits of the. automaticadjustment of the bars in their slides to' compensate for the varying levels ofthe material in the molds and causes the tamping bars to move upward in their slides ast e m'old gradually fills up so as to in` sure the ends ofthe bars opera-ting on the topof the material.y

After the mold has been run full of the material to form the pipe 'and said material has been thoroughly tamped by the bars, in the manner aforesaid, the -feeding and tamping operation issuspended by stopping the drive pulley m. The completed pipe section is now ready for removal and the operation hereinbefore explained is repeated, namely the lever z' is actuated to start the core for the bell or mouth section of the.

pipe and leaving the same freel in the mold for subsequent -removal. Alfter ythe core has been completely withdrawn, the mold carrying table is swung about through 180 as hereinbeforey explained and the mold carrying the finished pipe brought into discharging position and an empty mold is moved into charging position.

What I claim is:

1. .A molding machine for pipes and the like, 'comprising a. rotary charging table, a

mold detachably secured thereto, a mold carrying frame adjacent to said table and having swiveled connection with said mold permitting said mold to rotate about its own axis, means for intermittently rotating', raising and lowering said frame with respect to said table, a core movable through said table longitudinally of a mold thereon, and means for rotating said charging table.

2.l A molding machine for pipes and the like, comprising a rotary charging table,. a mold detachably secured` thereto', a mold carrying frame adjacent to said table and having swiveled connection with said mold permitting said mold to rotate about its longitudinal axis, means for intermittently rotating, raising and lowering said frame with respectto said table, a downwardly retractable core movable through said table longitudinally of a mold thereon, and means for rotating said table. f

3. A molding machine for pipes and thv like, comprising a rotary charging table a moldl carrying frame, a, plurality of molds .mechanism to withdraw the core f8 downcarried yby said frame, each of said molds being connected to said frame so as `to be capable of independent rotation about its own axis, means forintermittently rotating,

raising 'and lowering said Aframe withv re-J spect to said table, means for securing a mold to' said table, a ,core movable through the table and into the Imold; thereon, and

means for imparting longitudinal movement.

to said core toposition the core in the mold and withdraw said'core downwardly from .the,mold.

4; A molding machine for pipes and the like, comprising a rotary charging-table, .a mold carrying frame, a pluralityof molds carried thereby, each'of saidmolds being capable of independent. rotation about its own axis with respect to said frame,'means for intermittently rotating, raising and lowering, said .frame with respect tosaid table, means for securing a moldA to said table, means for rotating said table, a coremovablev through the table -and into the mold therein, and reversing gearing for im-v parting longitudinal movement to said core to position the core in the mold and withdraw said core downwardly romtlie moldrespectively. i

-5. A molding-machine foivpipes and vthe like, comprising a rotary' charging table, .a v mold carrying frame having a plurality of molds swiveledthereon so as to be inde'- pendently rotatable about their longitudinal axes, means for intermittently rotating, raising and lowering said irame'to remove a l filled mold lfrom and vto centrally position.

an empty mold on said table, a downwardly 'retractable core passing through the' table andino the mold thereon, and means opu erable by the core in itsvlower position to actuate the mold carrying frame' as aforesaid.

6. A molding machine for pipes and the like, comprising a rotary charging table, a

mold carrying frame having molds mount-- ed thereon for independent rotation about their vertical aXes, means for securing "a" mold to said table, means for rotating said table and the mold secured thereto, a roytary vertically movable shaft coperating `with the mold frame to rotate, raise .and

lower the same with respect to the charging table, a vertically movable core `passing through the table longitudinally of a mold thereon, and means operable by the core in its lowerposition to raise said rotary shaft and actuate the mold carrying frame as aforesaid.

7. A molding machine for pipes and the like, comprising 'a rotary charging table,

means for rotating said table, a horizotnally rotatable mold carrying frame having molds swiveled thereon for independent rotary movement about their longitudinal axes,

means for4 securing a mold to said table so as to cause it to rotatetherewith, and means for intermittently rotating, raising and lowering said mold carrying frame to'remove last mentioned mold to the rotary charging table, and means for rotating said table an the mold secured thereto;

9. A molding machine for pi like, comprising a rotary charging table, a" vertical column carrying' an operators platform adjacent said table', al mold carrying' frame journaled on said column for rotary movement about `said platform to move the molds to and from the charging table, andl means for intermittently rotating, raising and loweringsaid mold carrying frame.

10. A molding machine for pipes and the like, comprising a rotary charging table having aremovable centralsection -,to` accommodate molds of different sizes, a mold pes and `the v carrying frame, a plurality of molds mounted en said frame and independently rotataff-v ble with respect thereto, means for rotating? raising 'and `lowering said frame with respect to the charging table, and means for rotating said table. f 1 Y -0 11. A. molding machine for pipes and the like, comprising 'a rotary charging table having a removable central section to ac vcommodate molds of d iiferent sizes, a mold carrying f rame, a plurality of molds mounted on said iframe and independently rotatable with respect thereto, means for rotating, raising and lowering said frame with respect to the charging table, means for separately securing each of said molds'to said rotaryitable,` a vertically movable core adapted to be withdrawn downward from the mold on the table, means for raising and lowering the core, and means actuated byl said 'core in its lower position for operatingf the mold carrying frame as aforesaid.A

12. A molding machine forpipes andthe like, comprising a rotary charging table, a

rotary .mold carrying frame, a plurality of molds mounted for independent rotation'in iis said frame, means for intermittently rotating, raising and lowering the mold carrying frame with respect tothe charging table to move the molds to and from the table aoresaid, means for securing a mold to the table, a core passing centrally through the table, means for successively moving the core into the mold and withdrawing the In testimony Vwhereof I affix my signasame downwardly therefrom, a feed hopper f two subscribing witcarried by the machine frame and laterally ture, in the presence o adjustable with respectto the charging tanesses.

ble, a plurality of tamping bars for com- THOMAS W. HAMMOND, JB. 5 pactin the material fed to the mold, later- Witnesses:

ally a justable fxictional supports for said E. R. YORK,

bara-and means for reciprocating said bars. T. W. HAMMOND.

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Washington, D. C. 

